Yuqing Sun

TL;DR: A novel sorbent for the removal of potentially toxic elements, inherent cations, and hetero-chloride from hydraulic fracturing wastewater (FWW) by elucidating the removal mechanisms of different contaminants is demonstrated.

TL;DR: The variety of processes and pathways through which bio-valorization of algal biomass can be performed are described in this review and the biorefinery model and its collaborative approach with various processes are highlighted for the production of eco-friendly, sustainable, and cost-effective biofuels and value-added products.

TL;DR: This review critically evaluates the synthesis, characterization, and application of ball-milled biochar nanomaterials based on the latest findings and offers insights into opportunities and future prospects related to sustainable and facile synthesis of biochar-based novel materials for achieving sustainable development goals.

TL;DR: The engineered biochar with hierarchical pores can impregnate iron nanoparticles, serve as an adsorbent, and enhance metal reduction/precipitation and can be a novel biowaste-derived material for wastewater treatment.

TL;DR: Morphological and physiochemical characterization showed that nZVI could be impregnated within the framework of the synthesized Fe-CB600 composite, which exhibited the largest surface area, pore volume, iron loading capacity, and Fe0 proportion.